Basic Information

Insect: Melipona bicolor
Gene Symbol: -
Assembly: GCA_030673865.1
Location: JAHYIQ010000004.1:328520-340598[+]

Transcription Factor Domain

TF Family: TF_bZIP
Domain: bZIP domain
PFAM: AnimalTFDB
TF Group: Basic Domians group
Description: bZIP proteins are homo- or heterodimers that contain highly basic DNA binding regions adjacent to regions of α-helix that fold together as coiled coils
Hmmscan Out: # of c-Evalue i-Evalue score bias hmm coord from hmm coord to ali coord from ali coord to env coord from env coord to acc

1 46 1.8 1.9e+03 -0.5 0.1 26 50 54 78 51 85 0.67

2 46 0.063 68 4.1 2.0 31 56 97 122 94 124 0.79

3 46 0.014 16 6.2 1.0 30 59 212 241 204 244 0.83

4 46 3.4 3.7e+03 -1.4 1.2 27 62 264 299 262 305 0.80

5 46 0.5 5.4e+02 1.3 3.3 35 61 306 332 294 336 0.86

6 46 0.0004 0.43 11.2 1.5 24 62 350 388 349 391 0.92

7 46 0.00077 0.83 10.3 5.0 24 63 416 455 413 456 0.93

8 46 0.0049 5.2 7.7 6.6 32 63 473 504 458 506 0.74

9 46 0.0017 1.9 9.1 5.1 35 64 507 536 504 537 0.90

10 46 0.0018 1.9 9.1 0.5 25 64 525 564 524 565 0.91

11 46 0.011 12 6.5 4.3 24 62 552 597 549 600 0.72

12 46 0.025 27 5.4 6.4 16 61 572 617 570 619 0.92

13 46 0.03 32 5.2 4.3 31 60 608 637 592 642 0.65

14 46 0.019 20 5.8 3.4 21 56 612 647 609 656 0.53

15 46 4.1e-05 0.044 14.4 8.8 23 65 670 712 669 712 0.92

16 46 0.56 6e+02 1.1 6.3 26 63 701 741 699 754 0.83

17 46 0.00061 0.65 10.6 2.2 29 63 749 783 741 786 0.73

18 46 0.00066 0.71 10.5 4.6 28 59 780 811 779 819 0.89

19 46 0.0084 9 7.0 4.8 28 64 825 861 811 862 0.86

20 46 0.00056 0.61 10.7 0.8 33 63 858 888 853 889 0.77

21 46 0.0055 5.9 7.5 2.9 36 58 886 908 883 910 0.83

22 46 0.0013 1.4 9.5 0.8 33 59 907 933 906 934 0.92

23 46 6.5e-06 0.0069 16.9 1.1 22 64 931 973 930 974 0.93

24 46 0.0037 4 8.1 6.3 26 61 984 1019 979 1022 0.88

25 46 6.5e-06 0.0069 16.9 9.8 22 65 1008 1051 1008 1051 0.94

26 46 0.0015 1.6 9.3 9.8 27 65 1027 1065 1025 1072 0.87

27 46 0.00014 0.15 12.6 2.5 22 61 1071 1110 1069 1113 0.93

28 46 0.0013 1.4 9.5 5.9 25 63 1130 1168 1118 1170 0.81

29 46 0.0035 3.8 8.1 3.5 32 64 1165 1197 1157 1212 0.58

30 46 0.00021 0.22 12.1 1.4 24 62 1192 1230 1189 1233 0.90

31 46 0.00039 0.42 11.2 6.3 21 64 1217 1260 1217 1261 0.93

32 46 1.1 1.2e+03 0.2 0.2 25 42 1260 1277 1257 1278 0.85

33 46 0.0028 3 8.5 3.3 22 63 1281 1322 1273 1324 0.85

34 46 0.23 2.5e+02 2.3 0.4 33 61 1327 1355 1325 1359 0.79

35 46 0.29 3.1e+02 2.0 0.4 25 59 1357 1391 1355 1394 0.82

36 46 0.57 6.1e+02 1.1 0.2 24 62 1370 1408 1367 1410 0.72

37 46 0.00022 0.24 12.0 4.4 23 62 1411 1450 1409 1453 0.92

38 46 0.00043 0.46 11.1 2.3 30 62 1432 1464 1431 1467 0.93

39 46 0.001 1.1 9.9 6.2 25 63 1469 1507 1466 1509 0.87

40 46 0.017 19 5.9 10.7 28 64 1535 1571 1517 1572 0.80

41 46 6.7e-05 0.073 13.7 7.2 24 64 1566 1606 1564 1607 0.93

42 46 0.00017 0.19 12.3 5.8 24 63 1722 1761 1719 1763 0.91

43 46 0.12 1.3e+02 3.3 0.8 22 56 1762 1796 1761 1801 0.75

44 46 0.015 16 6.2 2.0 24 55 1799 1830 1795 1831 0.86

45 46 0.00029 0.31 11.6 9.3 24 60 1820 1856 1819 1859 0.92

46 46 0.67 7.2e+02 0.9 0.1 34 60 1916 1945 1897 1950 0.80

#	of	c-Evalue	i-Evalue	score	bias	hmm coord from	hmm coord to	ali coord from	ali coord to	env coord from	env coord to	acc
1	46	1.8	1.9e+03	-0.5	0.1	26	50	54	78	51	85	0.67
2	46	0.063	68	4.1	2.0	31	56	97	122	94	124	0.79
3	46	0.014	16	6.2	1.0	30	59	212	241	204	244	0.83
4	46	3.4	3.7e+03	-1.4	1.2	27	62	264	299	262	305	0.80
5	46	0.5	5.4e+02	1.3	3.3	35	61	306	332	294	336	0.86
6	46	0.0004	0.43	11.2	1.5	24	62	350	388	349	391	0.92
7	46	0.00077	0.83	10.3	5.0	24	63	416	455	413	456	0.93
8	46	0.0049	5.2	7.7	6.6	32	63	473	504	458	506	0.74
9	46	0.0017	1.9	9.1	5.1	35	64	507	536	504	537	0.90
10	46	0.0018	1.9	9.1	0.5	25	64	525	564	524	565	0.91
11	46	0.011	12	6.5	4.3	24	62	552	597	549	600	0.72
12	46	0.025	27	5.4	6.4	16	61	572	617	570	619	0.92
13	46	0.03	32	5.2	4.3	31	60	608	637	592	642	0.65
14	46	0.019	20	5.8	3.4	21	56	612	647	609	656	0.53
15	46	4.1e-05	0.044	14.4	8.8	23	65	670	712	669	712	0.92
16	46	0.56	6e+02	1.1	6.3	26	63	701	741	699	754	0.83
17	46	0.00061	0.65	10.6	2.2	29	63	749	783	741	786	0.73
18	46	0.00066	0.71	10.5	4.6	28	59	780	811	779	819	0.89
19	46	0.0084	9	7.0	4.8	28	64	825	861	811	862	0.86
20	46	0.00056	0.61	10.7	0.8	33	63	858	888	853	889	0.77
21	46	0.0055	5.9	7.5	2.9	36	58	886	908	883	910	0.83
22	46	0.0013	1.4	9.5	0.8	33	59	907	933	906	934	0.92
23	46	6.5e-06	0.0069	16.9	1.1	22	64	931	973	930	974	0.93
24	46	0.0037	4	8.1	6.3	26	61	984	1019	979	1022	0.88
25	46	6.5e-06	0.0069	16.9	9.8	22	65	1008	1051	1008	1051	0.94
26	46	0.0015	1.6	9.3	9.8	27	65	1027	1065	1025	1072	0.87
27	46	0.00014	0.15	12.6	2.5	22	61	1071	1110	1069	1113	0.93
28	46	0.0013	1.4	9.5	5.9	25	63	1130	1168	1118	1170	0.81
29	46	0.0035	3.8	8.1	3.5	32	64	1165	1197	1157	1212	0.58
30	46	0.00021	0.22	12.1	1.4	24	62	1192	1230	1189	1233	0.90
31	46	0.00039	0.42	11.2	6.3	21	64	1217	1260	1217	1261	0.93
32	46	1.1	1.2e+03	0.2	0.2	25	42	1260	1277	1257	1278	0.85
33	46	0.0028	3	8.5	3.3	22	63	1281	1322	1273	1324	0.85
34	46	0.23	2.5e+02	2.3	0.4	33	61	1327	1355	1325	1359	0.79
35	46	0.29	3.1e+02	2.0	0.4	25	59	1357	1391	1355	1394	0.82
36	46	0.57	6.1e+02	1.1	0.2	24	62	1370	1408	1367	1410	0.72
37	46	0.00022	0.24	12.0	4.4	23	62	1411	1450	1409	1453	0.92
38	46	0.00043	0.46	11.1	2.3	30	62	1432	1464	1431	1467	0.93
39	46	0.001	1.1	9.9	6.2	25	63	1469	1507	1466	1509	0.87
40	46	0.017	19	5.9	10.7	28	64	1535	1571	1517	1572	0.80
41	46	6.7e-05	0.073	13.7	7.2	24	64	1566	1606	1564	1607	0.93
42	46	0.00017	0.19	12.3	5.8	24	63	1722	1761	1719	1763	0.91
43	46	0.12	1.3e+02	3.3	0.8	22	56	1762	1796	1761	1801	0.75
44	46	0.015	16	6.2	2.0	24	55	1799	1830	1795	1831	0.86
45	46	0.00029	0.31	11.6	9.3	24	60	1820	1856	1819	1859	0.92
46	46	0.67	7.2e+02	0.9	0.1	34	60	1916	1945	1897	1950	0.80

Sequence Information

Coding Sequence: ATGGAGGTCTGTCGGTGCGGATGTGACGCATCGACGCgtgaatcgatcgatccgcCGCACGAGCCGTGCTGTTGCTGCAGCTACAATCCCTTCAGCGACAAAGAAGCAGAGATCTACGACCTGCCATTTGCCCTGAAGAAGCTCACGGTAATGAAGTGTCAGATGAAGAAGTGGCGAATGGAAAGACTTCAGTTCGAGAGCGAAAATAGATCTCTGAAACAAGCCCTCCAGTCATTCGGTGTAAATGTGGATGAGATATTGAAGCCCGATCCGCTGCTAGTGCACTCCCAGGAAGAAATCGAAAGGCTGCAAAATGCAAACGCGGCGCTCCAAGATAAAGTGAGGGATCTCGAGGAAACTCTTGCCGAGCGAGATTGCTGCGACGATCCTGACGCCACGATTCACTTCTTCAGAGAGAAGATGAGATATCTCCGAGAGGGTTTCGcgcttgaaaaaaaagaATTTCGGGATATAATATCGGATTTGAAGTTGAAGTTGGCACAGGCTGAAGAGGACATCAGTTGCCCCGCGATATATCGTTTAAGGGCAAAGTTGCGTGAACTCATGAAAGGTCAAGTGGCCGAGCAGCAGGTCTCCAAAGTTGTGgagaaatcgatcgaaacCTTGGTGGACCTCTCGAAGAGCTGCGACGATCTGCGTTTGGAAAATGAACGTCTTTTGGACGAGTTGGCTAACTTGCGTCGTGTGTTGGCTGATtacgaaaggaaagaagtaCCAGAATCAATCTTGAGAACAGTTGAAACAGTCACCGTGCCGGAGTACGTTGACATTTCAGAGCTATTGGACAAGCTGAATAATTGCGAGGATACCGTGACTGACTTAAGAAAACAGttagaagaaaaagacaaGCTGATCAATGCGTTGAACAAAGAATTGGAATCGATAGTCAGCCAAAAAGATCTAGAAGCCATGAATGAGAATCTTAGGAGGAAGGAAGACAAGatCGCGGAACTCTTGAACACCTTAAGACAGTCAGAAATTGACCTGCTCGAGCTCTCCACCCTAAAATCCAAACTGGAAGActtcaaagagaaaatagCCGACTTACAGTCGAAACTCGACAAGGCGAACCAAGATGTTGACGATCTGAAAGCTGAGATAGCCAATCTGAGGAACGAGTTGGAAGACTGTAACAAGCGAAACGCGGAGCTGCAGGAATATTCCATGGACAAGGACGCTCTTTCGAAGAAGCTGCGCGACCTGGAGGAGGATCTCGCGGCCGCGAAACTCACAATAGCCGATCTCGAGAAAGAGGTGGACGTTTTGAGAAGAGACAAGGAGAATTTGTTGAACGAGCTAGACGAGACGAGGAAAGAGATGGAGGCGTTGACCGAGCAACTGGAGGACGAGAGAGTGGCCAGGAACGCGTTGGAGAAGGAACTGGAGGATAgccgaaatgaaattgaaaagttgcAGAAGGAGAATTCGGATCTGAAGGATCAGATCGACGCCGAGAGGAAGGAGAACGATAAACTTCGCCAGGCATTGGAAACGTCGAAGGAGCTGGCCGACGAGAACGAAAAGTTAAAGGCTCGACTGGAGCAGCTGAAGAGCGAGAACGACGGCCTGACGCAAAGAATGAAGGAGCTGaacgatttaaataatcaGCTGAGAACCGACTATGATAGTATGAAACGGGCGATGGATAATTTGCAAGCGGAGATCGACAAACTGGCGGACGAGTTGGCCAATGCGGAGCAGAAACGCGACGCGTTGTTGAACGAGAATAACAGTATCAGAAAGCAGCTTGAACGAGCGATTGCGGAAAATGAGAGTCTGAGAGCCGAACTGGACGAGGCCGGCAAACAACTCGACAAACTGAAATCGGAGAAAAGCGGGTTGCAGAAGAGCCTCGACGAGATGAAGCTCGAGAACGATTCGTTGAAGCGGGATATGAAGGCGTTAAGGGACGACCTTGAGGATTCTAGGGGGCAAGTGGAGGAGCTGAAAGCCGCTGGCGACGCGTTAAAGGCGGCGGATGAAGATAAGAAACTCGAACTCGCCGAACTGGAACAACGAGTGGAGGGCTTGAAGTCCGAGAAGGATCGCTTGACGAAGGAGAACGACGACCTGAGAAACAGAAACATGGAGTTGCAACGGAGGTTAGAGGAGCTGGATCAGATAAAGGGGGAAAATGCAGATTTACTTGCTGAATTGGATCGTTCGAGAAAAGAGCTGGAGAAAACGTTGCAGGACATTGATCAGTTAAAATCCGAAATAGGTTCTCTGAAGGACGGGCTGGACAATTGCGTGGacgaaatggagaaactgagAACCGAAAACAATGACCTGAAGAAGGAGAACGAGGCTCTGAAATCCGAAATTCAGAACATTGCcaatcgtttgaaaaaagaaaacgacagtttgaaaaatgaaattgcggAATTGGAGAAAAAACTGGCGGAATTGGACGAACTGAAGGGAGAAAATTCCGATTTACTCGGGGAACTAGATCGTTTGAAACAGGAATTGGAGAAAACCTGGAAGGAGGTTGACCAATTAAAATCCGAGGCAAATTCGTTGAAGGACGCGCTCGACAAGTGCGTGGACGAGATGGAGAGGTTGCGGACTGAGAATGATGACCTTAAATCGGAGAATCAAGCTTTGAAGTCCGATATTCAAGGACTCGACGATCGTTTAACGAAGGAGAACGCTGATTTGAAAGCGAGAAACGAGGAACTGCGACAAAAATTAGGAGAGTTGGACAAACTGAAATCGGAAAACGCGGATTTGCTCGGCGAGGTCAATCATTTGACACGCGAAGTGGAAAAACTTTTAGAGGATATCGATCAATTGAAATCCGAGATGGAGAAGCTGAGAAGCGAGAACAATGGTTTGAAGTCTGAAATTCAGGGGATGAAAGATGAAGGGGATAGTCTAGTCGTGGAGTTAAATAATCTGAAGAACGAGAATTTCGCTTTGAAAGGCGAGAGGGATCAATTGAGCAAGCAATTGAGCGACGGTAAGGCGGAAAACGAAAAACTGCAAGCGGACAACGAGAAATTGCGAGCGGACAACGAGAAACTGCGAGCGGAAAAGGCTCAAGTTGAAGCCGAAAACGAGAAACTGAAAGAAGAGATAAATTCGTGTAAGCAGgagaatgataaattaaaagacgAGCTTGCAAAATTACGGGAACAGTTGCAATCGTTGAACGacgaattgaataaattaaaggCAGACCTCGATAAATCCGAGGAGAAAATTCGGTCTCTGGAACCGTTGGTCTCTCGTTTACAGAGTGAAAACGATAAATTGCGAAATGATTTGACAGATTTGGAGAACGAGGCGAACGATTTGAAAGCAAAAATGGGCAAAGAAACTGCTGACAACGAAAAGATGCGGAACGACCTGAAGATATTGGAGGATCAGGTGCAAGATCTGAGTAAGAAGTTGGACAATGCCAGGGCAGAAAACGATGCTTTGAAACAGGAGAATCAAAATCTCAAAGCAAAGTTATTGAATATGGATCaagatttatcaaatttaaaagcGGAGTGTGTAGATCTGAAACAAGAGATTGCTGATCTGAAGAAATTAGTTGAcgagttaaaagaaaaaatcgctAAATTGGAAGCAGACGTGGATCATTGGAAAATGGAGAATTGTAAGCTTCAGTTAGAGATTGATAAATTGAGAGCTGATCTTGAGGAAACGTTGAAAGATGTGAGCGAGTAtaaggCTAGAAATAAAGCACTACAAGAAGAATTAAATCatctgaaaaatgaaaaaggtgAGCTAGATCAAAAATTAGCTGATTTAATGTCGCAATTCGAACAACAGACAAAGACACTGGAAGCAGAAAAATCGGCGAAAGATAAGGGTGATTCAGAAATCATAAACTTGAAAGACGAACTTGATGCATTGAAAAAGGAACTAGAAAAATTGAGAGCAGACAATAATAGATACAGAAACGAATTGGACGATCTAGGTAGACAGCTTTCAGTGGCAAGAAACGAACtggaaaaatgcaaaaacgAGGTCTTCGCGTTGAGAGATGCCAACAACGTGTTAAAATCAGAAGTGGATCTCCTGAAAAGTTTAAAGGATGAGtacaataaattgaaaatcgatTTAGATGCTCTAAGAGTGGAAAACGTGAACCTTCTGCAAGATAGAAAACATCTCGAGGATGAGTATGGCAAGTTGAGGGGAGAAGGCGATGGTCAGAAAATAGAGATCGATAGGCTAAGATCTAACTTAGACGCAGAAAAAGAAGCTGCGGAAAGATTGAGAGCGGATCTACAAAATTGCCAAGCTGAGAACGGTAAACtgcaaaatgaattaaatgcAATGACAGACGAGCTAGGAAAATTAAGAAAGGAAAACGATCGTATGAAGAACGAGATCGACGAGTTGAAGAAGGCGTTGGCAGTTGCAGAAGCAAAGGTAAAATCTCTGGAAGATGAACTTTTCGATTTGTTAGCCGAGAAAGAGGAGTTGATCAACGAACTCGATCGTCTCCGGCAAGAGTTGAACAATCTTCGAAACGAAGCAGAGAAGCAGATAACCGCGAAAGACGCAGCCGTGAAGGAGTTAGCCGCCCTGAAGGACGAACTAGCTGCCCTAAAAGGGGCGCTGGACGAGACTCGCCGCGAAAACGAAACGCTAAAGAATGAGAACGAGAAGCTGAATACGGAATTAGCAAAGTTGAATAAGCAATTGGAAGCCTTGAAAGATGAGAATGCGAAGCTGAGAAATGAGAATGCAAAGCTGGAAGACGAAAATGCGAGTCTGAAGGTTGAGAATGCGAAATTGACGGCGGAGTTAGCCGAAACGAAGAACAAATTGACGCAGGCGGAGAAACAGCTGAACGATTCGAGGAATGAGAGCGATGACCTGAGGAAGAAAGTGGCTGATCTCGAGAGCACGATGAAGGAGCTGGAACCTCTGAAGAAACAATTAGAAGATGCTAAAAAGGAGTTAGATAGATTGAGCCCGGAGCTAGATAAATTGAAATCGGAGAATGCAAAATTGCAGGAAGATTTGAATAACGCGACGAATGAATCGAACAGGTTGAGGAACGATTTGGACAAATTGAAAACCGATTACAAGTTAGGACTTGAATTGGCGGACCTGAGGGATGAGAAAGATGTGCCAAAAGAACGTGAGGACATGTCAGAGGAAGAAGTAATcaaaataaaggaaaagaacGCGAAACTGAAGAGCGATTTGGATGATTGTCAAGCGGAGAATGCAAGACTGCGCAAAGAATTGGAAGACTTGAAATCGCAAAATGTAGAATTGCAGAACGATTTGAACAAGGCGAAGAACGAAGCGAGTAAATTAAAGGGAGATTTGGATAAATTGAAAAGCGATTACGGCGACTTACGGTTAGAGTTAGGTAAACTAAGGAACGAGAAGAATGGACAGAAGGAACGCGATGCTACGTTAAACGGGGATCttgataaattgaagaaagaaaatgatgaGTTGAAAGATGGGAACGAGAAACTGAAAAGCCAATTATTTGATTGCCAAGCAGAGAATGAAAGACTGCATGAGGAGTTGGAAAAGTTGAAGAAGGAAAATGCCAAACTGAAGCAAGCGGAAAAGATAGAGCCTAAGAAAGCGGAAATAGATAAAGATATTCTGGATGACTGCAGCGAATTCGTTAAAGCGAACGAATtattggaaaagaaatttgaaaagcaAAACGAAGGTGTGCAACGCATTCGGGATTATATTAAGTATTTGGAAGGTAAAATTAAAGAACCTAAAATGGCAGACAAGCTAGAAGAGGAACTAGAAATTGATCCAGAACTGAGAAAAGACATTGCAGACTTATTAAAGAAATCGCACAGCCTGTCCAATGATATTTATCAAACGGAacaggaaataaaaaatcttgGGGTTAAACCTTACGAAGGAGTCTTCGATCCTGACAGTTGGTTGAATTCGTTGACACTGACACAGCTGGCAGAGCTTCACGATAAGATTTGCCAGTTGACATCGGACATGGTACACCAGGACAGTAAAGTAGTGCCTTGCGATTTATCTGCACCAGCTACTCCATCACAGGCGgattacaatattttgaatCAGCGTATAGCTGCTTTGCAGAAACAGATAGCGAAGAAGCAAATAGAGACAGACTGGAAACTGCAAGAGCTGAGGAGAGTTCTTCGGAATGAGCAGGCTAACTTAATTCGAATTTCCGATCAAATGAATTTAGAGAGAAAACGCAATTTGAACCTACAGGACAGCATGGATGATTGA
Protein Sequence: MEVCRCGCDASTRESIDPPHEPCCCCSYNPFSDKEAEIYDLPFALKKLTVMKCQMKKWRMERLQFESENRSLKQALQSFGVNVDEILKPDPLLVHSQEEIERLQNANAALQDKVRDLEETLAERDCCDDPDATIHFFREKMRYLREGFALEKKEFRDIISDLKLKLAQAEEDISCPAIYRLRAKLRELMKGQVAEQQVSKVVEKSIETLVDLSKSCDDLRLENERLLDELANLRRVLADYERKEVPESILRTVETVTVPEYVDISELLDKLNNCEDTVTDLRKQLEEKDKLINALNKELESIVSQKDLEAMNENLRRKEDKIAELLNTLRQSEIDLLELSTLKSKLEDFKEKIADLQSKLDKANQDVDDLKAEIANLRNELEDCNKRNAELQEYSMDKDALSKKLRDLEEDLAAAKLTIADLEKEVDVLRRDKENLLNELDETRKEMEALTEQLEDERVARNALEKELEDSRNEIEKLQKENSDLKDQIDAERKENDKLRQALETSKELADENEKLKARLEQLKSENDGLTQRMKELNDLNNQLRTDYDSMKRAMDNLQAEIDKLADELANAEQKRDALLNENNSIRKQLERAIAENESLRAELDEAGKQLDKLKSEKSGLQKSLDEMKLENDSLKRDMKALRDDLEDSRGQVEELKAAGDALKAADEDKKLELAELEQRVEGLKSEKDRLTKENDDLRNRNMELQRRLEELDQIKGENADLLAELDRSRKELEKTLQDIDQLKSEIGSLKDGLDNCVDEMEKLRTENNDLKKENEALKSEIQNIANRLKKENDSLKNEIAELEKKLAELDELKGENSDLLGELDRLKQELEKTWKEVDQLKSEANSLKDALDKCVDEMERLRTENDDLKSENQALKSDIQGLDDRLTKENADLKARNEELRQKLGELDKLKSENADLLGEVNHLTREVEKLLEDIDQLKSEMEKLRSENNGLKSEIQGMKDEGDSLVVELNNLKNENFALKGERDQLSKQLSDGKAENEKLQADNEKLRADNEKLRAEKAQVEAENEKLKEEINSCKQENDKLKDELAKLREQLQSLNDELNKLKADLDKSEEKIRSLEPLVSRLQSENDKLRNDLTDLENEANDLKAKMGKETADNEKMRNDLKILEDQVQDLSKKLDNARAENDALKQENQNLKAKLLNMDQDLSNLKAECVDLKQEIADLKKLVDELKEKIAKLEADVDHWKMENCKLQLEIDKLRADLEETLKDVSEYKARNKALQEELNHLKNEKGELDQKLADLMSQFEQQTKTLEAEKSAKDKGDSEIINLKDELDALKKELEKLRADNNRYRNELDDLGRQLSVARNELEKCKNEVFALRDANNVLKSEVDLLKSLKDEYNKLKIDLDALRVENVNLLQDRKHLEDEYGKLRGEGDGQKIEIDRLRSNLDAEKEAAERLRADLQNCQAENGKLQNELNAMTDELGKLRKENDRMKNEIDELKKALAVAEAKVKSLEDELFDLLAEKEELINELDRLRQELNNLRNEAEKQITAKDAAVKELAALKDELAALKGALDETRRENETLKNENEKLNTELAKLNKQLEALKDENAKLRNENAKLEDENASLKVENAKLTAELAETKNKLTQAEKQLNDSRNESDDLRKKVADLESTMKELEPLKKQLEDAKKELDRLSPELDKLKSENAKLQEDLNNATNESNRLRNDLDKLKTDYKLGLELADLRDEKDVPKEREDMSEEEVIKIKEKNAKLKSDLDDCQAENARLRKELEDLKSQNVELQNDLNKAKNEASKLKGDLDKLKSDYGDLRLELGKLRNEKNGQKERDATLNGDLDKLKKENDELKDGNEKLKSQLFDCQAENERLHEELEKLKKENAKLKQAEKIEPKKAEIDKDILDDCSEFVKANELLEKKFEKQNEGVQRIRDYIKYLEGKIKEPKMADKLEEELEIDPELRKDIADLLKKSHSLSNDIYQTEQEIKNLGVKPYEGVFDPDSWLNSLTLTQLAELHDKICQLTSDMVHQDSKVVPCDLSAPATPSQADYNILNQRIAALQKQIAKKQIETDWKLQELRRVLRNEQANLIRISDQMNLERKRNLNLQDSMDD

Similar Transcription Factors

Sequence clustering based on sequence similarity using MMseqs2

100% Identity: iTF_00733734; iTF_01417451; iTF_00983378;
90% Identity: iTF_01417451;
80% Identity: -